/* 
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 * 
 * http://www.apache.org/licenses/LICENSE-2.0
 * 
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

using System;

using IndexOutput = Lucene.Net.Store.IndexOutput;

namespace Lucene.Net.Index
{
    
    
    /// <summary> Implements the skip list writer for the default posting list format
    /// that stores positions and payloads.
    /// 
    /// </summary>
    class DefaultSkipListWriter:MultiLevelSkipListWriter
    {
        private int[] lastSkipDoc;
        private int[] lastSkipPayloadLength;
        private long[] lastSkipFreqPointer;
        private long[] lastSkipProxPointer;
        
        private IndexOutput freqOutput;
        private IndexOutput proxOutput;
        
        private int curDoc;
        private bool curStorePayloads;
        private int curPayloadLength;
        private long curFreqPointer;
        private long curProxPointer;
        
        internal DefaultSkipListWriter(int skipInterval, int numberOfSkipLevels, int docCount, IndexOutput freqOutput, IndexOutput proxOutput):base(skipInterval, numberOfSkipLevels, docCount)
        {
            this.freqOutput = freqOutput;
            this.proxOutput = proxOutput;
            
            lastSkipDoc = new int[numberOfSkipLevels];
            lastSkipPayloadLength = new int[numberOfSkipLevels];
            lastSkipFreqPointer = new long[numberOfSkipLevels];
            lastSkipProxPointer = new long[numberOfSkipLevels];
        }
        
        internal virtual void  SetFreqOutput(IndexOutput freqOutput)
        {
            this.freqOutput = freqOutput;
        }
        
        internal virtual void  SetProxOutput(IndexOutput proxOutput)
        {
            this.proxOutput = proxOutput;
        }
        
        /// <summary> Sets the values for the current skip data. </summary>
        internal virtual void  SetSkipData(int doc, bool storePayloads, int payloadLength)
        {
            this.curDoc = doc;
            this.curStorePayloads = storePayloads;
            this.curPayloadLength = payloadLength;
            this.curFreqPointer = freqOutput.FilePointer;
            if (proxOutput != null)
                this.curProxPointer = proxOutput.FilePointer;
        }
        
        protected internal override void  ResetSkip()
        {
            base.ResetSkip();
            for (int i = 0; i < lastSkipDoc.Length; i++) lastSkipDoc[i] = 0;
            for (int i = 0; i < lastSkipPayloadLength.Length; i++) lastSkipPayloadLength[i] = -1; // we don't have to write the first length in the skip list
            for (int i = 0; i < lastSkipFreqPointer.Length; i++) lastSkipFreqPointer[i] = freqOutput.FilePointer;
            if (proxOutput != null)
                for (int i = 0; i < lastSkipProxPointer.Length; i++) lastSkipProxPointer[i] = proxOutput.FilePointer;
        }
        
        protected internal override void  WriteSkipData(int level, IndexOutput skipBuffer)
        {
            // To efficiently store payloads in the posting lists we do not store the length of
            // every payload. Instead we omit the length for a payload if the previous payload had
            // the same length.
            // However, in order to support skipping the payload length at every skip point must be known.
            // So we use the same length encoding that we use for the posting lists for the skip data as well:
            // Case 1: current field does not store payloads
            //           SkipDatum                 --> DocSkip, FreqSkip, ProxSkip
            //           DocSkip,FreqSkip,ProxSkip --> VInt
            //           DocSkip records the document number before every SkipInterval th  document in TermFreqs. 
            //           Document numbers are represented as differences from the previous value in the sequence.
            // Case 2: current field stores payloads
            //           SkipDatum                 --> DocSkip, PayloadLength?, FreqSkip,ProxSkip
            //           DocSkip,FreqSkip,ProxSkip --> VInt
            //           PayloadLength             --> VInt    
            //         In this case DocSkip/2 is the difference between
            //         the current and the previous value. If DocSkip
            //         is odd, then a PayloadLength encoded as VInt follows,
            //         if DocSkip is even, then it is assumed that the
            //         current payload length equals the length at the previous
            //         skip point
            if (curStorePayloads)
            {
                int delta = curDoc - lastSkipDoc[level];
                if (curPayloadLength == lastSkipPayloadLength[level])
                {
                    // the current payload length equals the length at the previous skip point,
                    // so we don't store the length again
                    skipBuffer.WriteVInt(delta * 2);
                }
                else
                {
                    // the payload length is different from the previous one. We shift the DocSkip, 
                    // set the lowest bit and store the current payload length as VInt.
                    skipBuffer.WriteVInt(delta * 2 + 1);
                    skipBuffer.WriteVInt(curPayloadLength);
                    lastSkipPayloadLength[level] = curPayloadLength;
                }
            }
            else
            {
                // current field does not store payloads
                skipBuffer.WriteVInt(curDoc - lastSkipDoc[level]);
            }
            skipBuffer.WriteVInt((int) (curFreqPointer - lastSkipFreqPointer[level]));
            skipBuffer.WriteVInt((int) (curProxPointer - lastSkipProxPointer[level]));
            
            lastSkipDoc[level] = curDoc;
            //System.out.println("write doc at level " + level + ": " + curDoc);
            
            lastSkipFreqPointer[level] = curFreqPointer;
            lastSkipProxPointer[level] = curProxPointer;
        }
    }
}